The week's pick
Reseach Article
Achieving Energy Efficiency using Green Internet of Things through Incorporation of Machine Learning Architecture
| International Journal of Computer Applications |
| Foundation of Computer Science (FCS), NY, USA |
| Volume 179 - Number 23 |
| Year of Publication: 2018 |
| Authors: Srishti Sharma, Hiren B. Patel, Bela Shrimali |
10.5120/ijca2018916460
|
Srishti Sharma, Hiren B. Patel, Bela Shrimali . Achieving Energy Efficiency using Green Internet of Things through Incorporation of Machine Learning Architecture. International Journal of Computer Applications. 179, 23 ( Feb 2018), 26-33. DOI=10.5120/ijca2018916460
Abstract
Global energy consumption hikes and natural resource depletion calls for fine-grained energy consumption on necessity basis. Our work focuses on the implementation of the concept of Green Internet of Things (Green IoT); using Internet of Things based architecture to induce autonomous sleep cycles in publically shared everyday usage appliances such as water coolers, coffee maker machines, vending machines, information kiosks etc. that are very commonly located in places such as schools, colleges, offices, tourism spots, airports, railways stations etc. where saving energy is usually not thought of. The approach presented here uses this IoT-based architecture to have the appliance report its usage pattern. The objective is to obtain the future usage forecast of the appliance made on the basis of the current usage patterns using the Machine Learning Architecture comprising of a Machine Learning Algorithm. The predicted usage data is then used to induce autonomous sleep cycles in the water cooler, for it to function as efficiently as possible, with least energy consumption. A water cooler system prototype is implemented using controller boards and sensors forming the IoT Architecture; the real time usage readings obtained from the prototype are used for predicting the future usage using ARIMA Machine Learning Algorithm, implemented using Python; and this forecast is then used for controlling the operation of the water cooler system.
References
- Annual World Energy Economic Statistical Report 2017 https://www.bp.com/content/dam/bp/en/corporate/pdf/energy-economic/statistical-review-2017/bp-statistical-review-of-world-energy-2017-full-report.pdf
- Daniela Ventura, Diego Casado-Mansilla, Juan Lopez-de-Armentia, Pablo Garaizar, Diego Loex-de-Ipina, and Vincenzo Catania, “Embedding intelligent eco-aware systems within everyday things to increase people’s energy awareness ”, Springer-Verlag Berlin Heidelberg, June 2015
- White Paper issued by Siemens on Energy Efficiency, Energy Optimization and Energy Management https://w3.siemens.com/mcms/process-control-systems/SiteCollectionDocuments/efiles/pcs7/support/marktstudien/WP_Energy-Man-PA_EN.pdf
- Paraphrased from: Samuel, Arthur (1959). "Some Studies in Machine Learning Using the Game of Checkers". IBM Journal of R&D doi:10.1147/rd.33.0210
- Paraphrased:“Machine Learning and Pattern Recognition can be viewed as two facets of the same field”
- Ina Khandelwal, Ratnadip Adhikari, Ghanshyam Verma, “Time Series Forecasting using Hybrid ARIMA and ANN Models based on DWT Decomposition”, International Conference on Intelligent Computing, Communication & Convergence, ScienceDirect 2015.
- Jack V. Tu, “Advantages and Disadvantages of using Artificial Neural Networks versus Logistic Regression for predicting Medical Outcomes”, Elsevier 1996.
- Bogdan M. Wilamowski, Okyay Kaynak, Serdar Iplikci, M. Önder Efe, “An Algorithm for Fast Convergence in Training Neural Networks”, IEEE 2001.
- Gao, G., Lo, K. and Fan, F.L. (2017) “Comparison of ARIMA and ANN Models Used in Electricity Price Forecasting for Power Market”. Energy and Power Engineering, 9, 120-126. https://doi.org/10.4236/epe.2017.94B015, April 2017
- ARIMA Machine Learning Algorithm – https://www.datascience.com/blog/introduction-to-forecasting-with-arima-in-r-learn-sata-science-tutorials.
- HTTP vs. MQTT Protocols – http://www.rfwireless-world.com/Terminology/MQTT-vs-HTTP.html
- Kun-Lin Tsai, Fang-yie-leu, and Ilsun you, “Residence Energy Control System Based on Wireless Smart Socket and IoT”, IEEE Access, May 2016.
- Jui-Sheng Chou, Ngoc-Tri Nago, “Smart grid Data Analytics framework for increasing energy saving in residential buildings”, Elsevier-Automation in Construction-January2016.
- Chun-Nam Yu, Piotr Mirowski ad Tin Kam Ho, “A Sparse Coding Approach to Household Electricity Demand Forecasting in Smart Grids”, IEEE Transactions on smart grids, December 2015.
- Parag Sen, Mousumi Roy, Parimal Pal, “Application of ARIMA for forecasting energy consumption and GHG emission: A case study of an Indian pig iron manufacturing organization”, Elsevier-Energy, December 2016
- Dataset downloaded from UCI Machine Learning Repositoryhttps://archive.ics.uci.edu/ml/datasets/Activity+Recognition+from+Single+Chest-Mounted+Accelerometer
- The magnitude value from the three axis readings http://www.instructables.com/id/Accelerometer-Gyro-Tutorial
- Compressor cycle rate per hour https://reductionrevolution.com.au/blogs/news-reviews/57786245-water-cooler-water-boiler-energy-consumption-revealed
- Compressor cycle rate per hour https://www.researchgate.net/post/What_is_the_compressor_cycle _rate_for_water_coolers
Index Terms
Keywords